• Chowdhury, N.; Kleemann, W.; Petracic, O.; Kronast, F.; Doran, A.; Scholl, A.; Cardoso, S.; Freitas, P.; Bedanta, S.: 360° degrees domain walls in magnetic thin films with uniaxial and random anisotropy. Physical Review B 98 (2018), p. 134440/1-7

10.1103/PhysRevB.98.134440
Open Access Version

Abstract:
X-ray photoemission electron microscopy (XPEEM) and magneto-optic Kerr effect (MOKE) microscopy have been performed on a metal-insulator multilayer of [Co80Fe20(t=1.8nm)/Al2O3(3nm)]9 to image 360∘ domain walls (DWs) along easy and hard axes, respectively. Their creation and annihilation can be directly visualized under application of a magnetic field. XPEEM experiments and micromagnetic simulations show that 360∘ DWs occur through the merger of 180∘ DWs of opposite chiralities along the easy axis. They are stable even under application of large magnetic fields. Formation of 360∘ DWs observed along the hard axis is attributed to symmetry breaking of the coherent spin rotation. Their formation in metal-insulator multilayers is explained as being due to the presence of an orientational dispersion of anisotropy axes in the film grains that is comparable to an overall uniaxial anisotropy term. Our results are confirmed numerically using micromagnetic simulations.